Relevant bibliographies by topics / SOI ring resonator

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers
  5. Reports

Academic literature on the topic 'SOI ring resonator'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "SOI ring resonator"

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Liu, Chao, Chen Yang Xue, Dan Feng Cui, Jun Bin Zang, Yong Hua Wang, and Jing Xue Wang. "High-Q Silicon-on-Insulator Micro-Ring Resonator with Silica Covering." Advanced Materials Research 684 (April 2013): 443–46. http://dx.doi.org/10.4028/www.scientific.net/amr.684.443.

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We designed High-Q micro-ring resonators based on SOI material. A new method of using a top SiO2 layer to cover the waveguide is applied and the tested Q factor is as high as 1.0135×104. Micro-ring resonator has been fabricated using Electron-Beam Lithography and Inductive Coupled Plasma. OptiFDTD was used to simulate the micro-ring resonator and we compared the transmission spectrum of this resonator with the resonator without SiO2 covering.
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Zang, Jun Bin, Chen Yang Xue, Li Ping Wei, Yong Hua Wang, Dan Feng Cui, and Wen Dong Zhang. "Characteristic Research of SOI Rib Waveguide Resonators with SiO2 Deposited." Key Engineering Materials 562-565 (July 2013): 727–30. http://dx.doi.org/10.4028/www.scientific.net/kem.562-565.727.

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With the extensive research and application of SOI nano-optical ring resonators, the problem of high integration becomes the bottleneck restricting its development. To research the effect of deposited SiO2 insulating layer on the resonance characteristic of SOI nano-waveguid ring cavity while integrating, a rib waveguide ring resonator with 500nm SiO2 insulating layer deposited was designed and fabricated in this paper. By testing the resonance transmission spectrum power of this structure, it is found that SiO2 insulating layer deposited has no effect on the grating vertical coupling efficiency while improves the quality factor to 14.000±1.000.
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Kasper, Laura, Abbas Zein Al-Din, Jürgen Bruns, Rudolf Volkmer, and Klaus Petermann. "Fix-Wavelength Multi-Analyte Detection with Serial SOI Ring Resonators." Engineering Proceedings 6, no. 1 (May 17, 2021): 22. http://dx.doi.org/10.3390/i3s2021dresden-10108.

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We present a method for the read-out of five serially arranged SOI ring resonator-based biosensors at a speed of 3 Hz/sensor and a fixed wavelength of 1550 nm. The system uses the high thermo-optical coefficient of silicon by applying AC voltages to periodically heat up electrodes adjacent to each sensor. A time-division multiplex scheme allows the allocation of the measured optical output from the mutual spectrum to each specific resonator. We demonstrate our system by immobilizing two different antibodies (biotin and a hexa-His-peptide) at the surface of selected resonators and successfully showing the selective binding characteristics of analyte probing in a microfluidics supported experiments.
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Du, Yang, and Ying Dong. "The Structure Design and Simulation of the Ring Resonator Based on SOI Planar Optical Waveguide for the Micro Biochemical Sensor." Key Engineering Materials 609-610 (April 2014): 914–20. http://dx.doi.org/10.4028/www.scientific.net/kem.609-610.914.

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A ring resonator based on Silicon-on-Insulator (SOI) planar optical waveguide for micro biochemical sensor application is designed and simulated in this paper. The SOI optical waveguide is made with a ridge structure. According to the optical waveguide mode theory and the performance of the ring resonator, the size of the single mode ridge waveguide and the structure of the ring resonator are obtained. Based on the structure principle and the transmission mechanism of electric field of the ring resonator, the power transfer function and the parametric equation of sensitivity are derived. As a result, the value of Q of the ring resonator can reach 103 magnitudes. At last, the structure and the transmission mechanism of electric field in the ring resonator are simulated in MATLAB software.
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WANG Xiao qian, 王晓倩, 马可贞 MA Ke zhen, 赵宇 ZHAO Yu, 冯薪霖 FENG Xin lin, 薛晨阳 XUE Chen yang, 张文栋 ZHANG Wen dong, and 闫树斌 YAN Shu bin. "SOI Multi ring Cascade Optic Resonator Filters." Chinese Journal of Luminescence 34, no. 5 (2013): 645–49. http://dx.doi.org/10.3788/fgxb20133405.0645.

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Fei, Sitao, and Hao Ren. "Temperature Characteristics of a Contour Mode MEMS AlN Piezoelectric Ring Resonator on SOI Substrate." Micromachines 12, no. 2 (January 29, 2021): 143. http://dx.doi.org/10.3390/mi12020143.

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As a result of their IC compatibility, high acoustic velocity, and high thermal conductivity, aluminum nitride (AlN) resonators have been studied extensively over the past two decades, and widely implemented for radio frequency (RF) and sensing applications. However, the temperature coefficient of frequency (TCF) of AlN is −25 ppm/°C, which is high and limits its RF and sensing application. In contrast, the TCF of heavily doped silicon is significantly lower than the TCF of AlN. As a result, this study uses an AlN contour mode ring type resonator with heavily doped silicon as its bottom electrode in order to reduce the TCF of an AlN resonator. A simple microfabrication process based on Silicon-on-Insulator (SOI) is presented. A thickness ratio of 20:1 was chosen for the silicon bottom electrode to the AlN layer in order to make the TCF of the resonator mainly dependent upon heavily doped silicon. A cryogenic cooling test down to 77 K and heating test up to 400 K showed that the resonant frequency of the AlN resonator changed linearly with temperature change; the TCF was shown to be −9.1 ppm/°C. The temperature hysteresis characteristic of the resonator was also measured, and the AlN resonator showed excellent temperature stability. The quality factor versus temperature characteristic was also studied between 77 K and 400 K. It was found that lower temperature resulted in a higher quality factor, and the quality factor increased by 56.43%, from 1291.4 at 300 K to 2020.2 at 77 K.
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Mardiana, B., A. R. Hanim, H. Hazura, S. Shaari, P. Susthitha Menon, and Abdullahf Huda. "Performance of the Active Microring Resonator Based on SOI Rib Waveguide." Advanced Materials Research 462 (February 2012): 375–79. http://dx.doi.org/10.4028/www.scientific.net/amr.462.375.

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Micro-ring resonator based on silicon-on-insulator (SOI) has been extensively studied due to its many advantages, thus promising to improve the optoelectronic integrated circuit performance. This paper highlights the study of the free carrier injection effect on the silicon rib waveguide with p-i-n diode structure integrated in the SOI micro-ring resonator. The free carrier concentrations have been modulated by the electrical signal that can cause change of refractive index of the micro-ring resonator. The device performances are predicted by using numerical modelling software 2D SILVACO and Finite Difference Time Domain method simulation software RSOFT. The results show the change of refractive index is maximized at a greater applied voltage. A shift in resonant wavelength of around 6.7 nm was predicted at 0.9V with 1.14x10-3refractive index change. It is also shown that 8.5dB change of the output response obtained through the output.
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Mardiana, B., A. R. Hanim, H. Hazura, S. Shaari, P. Susthitha Menon, and Huda Abdullah. "Active SOI Optical Ring Resonator Based on Free Carrier Injection." Advanced Materials Research 403-408 (November 2011): 758–61. http://dx.doi.org/10.4028/www.scientific.net/amr.403-408.758.

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This paper highlights the study of the free carrier injection effect on the active SOI optical ring resonator. The effect of the free carrier injection on optical ring resonator was evaluated by varying the p+ and n+ doping concentrations. The device performances are predicted by using numerical modelling software of the 2D SILVACO and Finite Difference Time Domain method simulation software RSOFT. The results show the refractive index change increases as the p+and n+doping concentrations is getting higher. A shift in resonant wavelength of around 2 nm was predicted at 5x1019cm3p+and n+doping concentrations with 5.8x10-3refractive index change. It is also shown that 8.2dB change of the output response obtained through the output.
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Singh, Ritu Raj, Soumya Kumari, Abhinav Gautam, and Vishnu Priye. "Glucose Sensing Using Slot Waveguide-Based SOI Ring Resonator." IEEE Journal of Selected Topics in Quantum Electronics 25, no. 1 (January 2019): 1–8. http://dx.doi.org/10.1109/jstqe.2018.2879022.

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Chiu, Wei-Yu, Tai-Wei Huang, Yen-Hsiang Wu, Yi-Jen Chan, Chia-Hunag Hou, Huang Ta Chien, and Chii-Chang Chen. "A photonic crystal ring resonator formed by SOI nano-rods." Optics Express 15, no. 23 (2007): 15500. http://dx.doi.org/10.1364/oe.15.015500.

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Dissertations / Theses on the topic "SOI ring resonator"

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Ehteshami, Nasrin. "Silicon Photonic Devices for Microwave Signal Generation and Processing." Thesis, Université d'Ottawa / University of Ottawa, 2016. http://hdl.handle.net/10393/34111.

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Silicon photonics as a one of the most promising photonic integration technologies has attracted many attentions in recent years. The major feature of this technology is its compatibility with complementary metal-oxide semiconductor (CMOS) processes which makes it possible to integrate optical and electronic devices in a same chip and reduce the cost significantly. Another reason of using silicon photonics is the high index contrast between the silicon core and silicon dioxide cladding which ensures the high density integration of photonic devices on a single chip. Monolithic integration with electronic and optical circuits makes silicon photonics technology suitable for numerous applications. One example is microwave photonics (MWP). MWP is an area that studies the interaction between microwave and optical signal for the generation, processing, control and distribution of microwave signals by means of photonics. Silicon photonics offers a reduction in footprint, losses, packaging cost and power dissipation in MWP systems. This research in this thesis is focused on the design and fabrication of the silicon photonic devices for MWP signal processing and generation. Four MWP systems based on silicon photonic devices are proposed and experimentally demonstrated. 1) A single pass-band frequency-tunable MWP filter based on phase-modulation to intensity-modulation conversion in an optically pumped silicon-on-insulator (SOI) microring resonator (MRR) is designed and experimentally demonstrated. In the proposed filter, a phase-modulated optical signal is filtered by the SOI MRR, to have one first-order sideband suppressed by the MRR notch. The phase-modulated optical signal is converted to an intensity-modulated single-sideband (SSB) signal and detected at a photodetector (PD). The entire operation is equivalent to a single pass-band filter. The frequency tunability is achieved by tuning the resonance wavelength of the MRR, which is realized by optically pumping the MRR. A single pass-band MWP filter with a tunable center frequency from 16 to 23 GHz is experimentally demonstrated. 2) A broadband optically tunable MWP phase shifter with a tunable phase shift using three cascaded SOI MRRs that are optically pumped is designed and experimentally demonstrated. A microwave signal to be phase shifted is applied to an optical single-sideband (OSSB) modulator to generate an optical carrier and an optical sideband. The phase shift is introduced to the optical carrier by placing the optical carrier within the bandwidth of one resonance of the three cascaded MRRs. The experimental results show that by optically pumping the cascaded MRRs, a broadband MWP phase shifter with a bandwidth of 7 GHz with a tunable phase shift covering the entire 360o phase shift range is achieved. 3) A multi tap MWP filter with positive and negative coefficients using a silicon ring resonator modulator (RRM) is proposed and experimentally demonstrated. The RRM is designed and fabricated to operate based on the carrier depletion effect. The positive and negative coefficients are obtained by using opposite slopes of the modulation transmission response of the RRM. Two filter responses with two and three taps are experimentally demonstrated, showing the proof-of-principle for frequencies up to 18 GHz. 4) An approach to generate microwave signal based on enhanced four wave mixing (FWM) in an active silicon waveguide (SiWG) is studied. This SiWG is designed and fabricated, and the use of the active SiWG for MWP frequency multiplication to generate a frequency-sextupled millimeter-wave signal is experimentally demonstrated. Thanks to a reverse-biased p-n junction across the SiWG, the conversion efficiency of the FWM is improved, which leads to the improvement of the microwave frequency multiplication efficiency.
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Jäger, Matthias [Verfasser], Klaus [Akademischer Betreuer] Petermann, Klaus [Gutachter] Petermann, Christian [Gutachter] Koos, and Lars [Gutachter] Zimmermann. "Spatially resolved refractive index detection based on SOI ring resonators / Matthias Jäger ; Gutachter: Klaus Petermann, Christian Koos, Lars Zimmermann ; Betreuer: Klaus Petermann." Berlin : Technische Universität Berlin, 2016. http://d-nb.info/1156184509/34.

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Chen, Chun-Yen, and 陳俊彥. "Analysis of SOI micro-ring resonator." Thesis, 2015. http://ndltd.ncl.edu.tw/handle/31897613553454852217.

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碩士
國立中山大學
光電工程學系研究所
103
In this thesis, the SOI micro-ring resonator based on Silicon photonics technology was discussed and analyzed with both simulation and experiment results. The novel theoretical model was proposed to explain the ring properties that can use in many applications. The contents depart in three topics: The principle of the micro-ring resonator and devices design: In this topic, the principle of the micro-ring resonator would be discussed. The resonant wavelength condition, free spectral range (FSR), and the relation between the ring parameters and the ring structure are explained. Through the transmittance function of the ring, one can optimize the transmittance spectrum of the ring to satisfy the bandwidth requirement in optical communication applications. Analysis of the micro-ring resonator in steady-state: In this topic, the double-dip resonance spectrum will be discussed. The double-dip resonance spectrum is generated by the reflection mode in the ring. Through the 3D-FDTD simulation, the coupling region of the ring illustrates the discontinuous index property that would generate the reflection mode. Thus, a novel theoretical model – a 4x4 scattering matrix is proposed to analyze the effect of the reflection mode. Analysis of the micro-ring resonator in dynamic-state: In this topic, the low coherent interferometry system will be discussed. Through the recursive relation of the ring, the interferogram on each round trip can be analyzed and extracted the parameters by Fourier transformation. Also, the interferogram can be used to predict the dynamic changes of the spectrum that is helpful for design of the ring modulator.
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Tsai, Chih-Wei, and 蔡智韋. "SOI micro-ring resonator measurements and analysis." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/97954970112007397147.

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碩士
國立中山大學
光電工程學系研究所
101
The thesis is based on the measurements and analysis of SOI-based silicon micro-ring resonator. The research background, motivation and methodology will be described in the first chapter. In chapter two and three, two kinds of measurement system are described, including their mechanisms and experimental results. We have measured and analyzed the single-ring structures with varying radiuses and coupling gaps, using silicon waveguide with a height of 0.25(0.22) μm and a width of 0.5 μm. To ensure the accuracy of the experimental results, two kinds of measuring technique were utilized and their results compared and discussed: (1) Wavelength scanning: By using wavelength scanning, we can directly obtain the transmission spectra of silicon micro-ring resonator. Therefore, we can extract important parameters of the resonators, including coupling coefficient and propagation loss, by using numerical curve fitting for different ring radius and coupling gap. Both of the experimental and simulation results show that the propagation loss increases rapidly with small gap distance of small radius ring. This creates a serious problem for making a strong-coupling all-pass filtering resonator. (2) Low coherence interference measurement (LCIM): By using LCIM, we can extract the information of transmitting light which travels in different laps. Therefore, we can precisely measure the properties of the ring resonator, including effective optical circumference, coupling coefficient and propagation loss. Since the measurement system is based on a highly sensitive interferometer, we need to reduce the dispersion, reflection and noise in it. The optical properties of ring resonator with 2.75 μm radius have been measured and analyzed. However, smaller rings are much more difficult to measure. One of the reasons is that envelop of the interfered signal will overlap, which is due to the limitation of the coherent length of the light source. Another reason is that the interfered signal is hard to recognize, since the power coupled into the ring is too weak, or the signal to noise ratio is too low. These problems will become a big challenge for us in both measuring and analyzing that will be solved in the future.
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Yang, Chun-Ting, and 楊鈞婷. "Microwave Phase Study by SOI Optical Ring Resonator." Thesis, 2012. http://ndltd.ncl.edu.tw/handle/13295609070904392368.

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碩士
國立臺灣科技大學
電子工程系
100
A silicon-on-insulator platform based optical waveguides with large refractive index provides high efficiency, high quality, low cost and its fully compatible processing with the complementary metal-oxide-semiconductor (CMOS) standard process. For these reasons, it is extensively utilized for both of high-speed and low power consumption optoelectronic devices. Moreover, the large refractive index difference between silicon and silicon dioxide layers can significantly reduce the device form size to submicron scale. Therefore, the silicon wire based optical ring resonator owns the potential of the highly integrated optical circuit and easy manipulation on the free spectral range (FSR) in optical communications. In Microwave Engineering, the electrical phased array is typically composed by numerous phase shifters. However, the photonics, offering many advantages on the compact size, large bandwidth, and fast tunability, was then made into small footprint phase shifters. In this thesis, even though the multimode interference (MMI) owns the higher propagation loss compared with the directional coupler, MMI was still utilized as the coupling function in the silicon-on-insulator (SOI) microring resonator phase shifter due to its wavelength independent spectrum. Several different lengths of optical rings, matched to FSR and quality factor were designed, fabricated, and demonstrated for phase shifting applications. Titanium was deposited on silicon wire optical ring resonator to study the variations on phase and transmission. The theoretical power splitting ratio of MMI was 50:50. The experimental data were showing the power splitting ratios were 56:44 and 54:46, respectively, for TE and TM polarization. The thermal effect on MMI was also discussed using the deposited titanium. To fully understand the polarization dependent phase, a 0.27 birefringence of silicon wire was observed by the optical low coherence interferometer. Finally, the 350-degree phase shifting was successfully demonstrated on the optical ring resonator for microwave photonics applications.
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CI, CHEN SHANG, and 陳尚祺. "Chromatic Dispersion Compensator using SOI Optical Ring Resonator." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/16918139282827456997.

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碩士
國立臺灣科技大學
電子工程系
101
A silicon-on-insulator platform based optical waveguides with large refractive index provides high efficiency, high quality, low cost and its fully compatible processing with the complementary metal-oxide-semiconductor (CMOS) standard process. Therefore, it is extensively utilized to construct the optoelectronic devices for the applications of higher speed and lower power consumption. Moreover, the large refractive index difference between silicon and silicon dioxide layers can significantly reduce the device form size to submicron scale. Moreover, the silicon wire based optical ring resonator owns the potential of highly integrated optical circuits and easy manipulation on the free spectral range (FSR) in optical communications. In this thesis, the transfer matrix method (TMM) on chromatic dispersion (CD) compensation from the silicon-wire-waveguide based optical ring resonator was studied and simulated for the operating wavelength dependence. The optical ring resonator couplers were made of two different approaches for wavelength independence, multimode interference (MMI) and Mach-Zehnder directional coupler (MZDC), a cascade of two directional couplers with the connected optical path difference. The splitting ratio from MMI was showing 10:90, in which 90 portions was into the ring region, instead of theoretic 50:50 due to the stress from silicon-on-insulator (SOI) wafers and 300-nm silicon dioxide films. For larger CD compensation on the optical ring resonator, the splitting power into the ring region is expected to less values. Therefore, a MZDC coupler was designed and fabricated for the resonator splitting ratio of 87:13 and wavelength independence. The experimental data for CD compensation was ranging up +400 ps/nm due to the CD monitor limitation.
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Lai, Shih-hung, and 賴士弘. "Off-chip low coherence interferometric study of SOI micro-ring resonator via grating coupler." Thesis, 2014. http://ndltd.ncl.edu.tw/handle/41558538064769469138.

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碩士
國立中山大學
光電工程學系研究所
102
The thesis is based on low coherence interferometric measurement study of SOI micro-ring resonator via grating coupler. Due to highly wavelength selectivity and large FSR of SOI micro-ring resonator, it is a potential structure for large FSR DWDM system. Owing to the nearly vertical coupling of grating coupler, it can be used to monitor the fabrication result immediately, on the other hand. for the obtain the micro-ring resonator parameter, low coherence interferometric measurement not only can avoid the fabry-perot effect but also comprehend the transient state of ring resonator in each circumference completely. The research background, motivation and the way of traditional wavelength scanning will be described in the first chapter, the design, simulation, measurement and analysis of grating coupler in the second chapter, then the system setup, analysis method and step, the problem that we faced and analysis result of low coherence interferometric measurement in the third chapter. However, the LCIM technique utilizes two distinct wavelength source, 1.55μm and 1.3μm, the grating coupler has bandwidth limitation, it is hard to efficiently coupler both signals into device simultaneously, so we have designed the grating coupler with a central wavelength at 1.55μm for TE polarization and a central wavelength around 1.3μm for TM polarization. On the other hand, using the low coherence interferometric study of SOI micro-ring resonator, the more interferograms we analyzed the more correct parameters we can obtained normally, but we find the more propagation distance the more bad signal to noise ratio that will cause the parameters error. Moreover, for the measurement of small radius ring resonator, the grating coupler 1.55μm bandwith limitation can cause the envelope overlap and affect the parameters accuracy. Through using the novel window method process analysis to decide the envelope width to avoid the envelope overlap, the broadband grating coupler designed which bandwidth is 144nm, the measurement and analysis problem can be overcodme. Finally, we measure and analyze the different radius and gap ring resonator which height is 220nm and width is 450nm, then using the LCIM analysis parameter to reconstruct spectrum and compare with scanning spectrum and investigate the parameter trend of different radius and gap, so we can comprehend the accuracy of measurement and analysis result.
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Mangal, Nivesh. "SOI Based Integrated-Optic Microring Resonators for Biomedical Sensing Applications." Thesis, 2012. http://hdl.handle.net/2005/3174.

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Integrated Silicon Photonics has emerged as a powerful platform in the last two decades amongst high-bandwidth technologies, particularly since the adop- tion of CMOS compatible silicon-on-insulator(SOI) substrates. Microring res- onators are one of the fundamental blocks on a photonic integrated circuit chip o ering versatility in varied applications like sensing, optical bu ering, ltering, loss measurements, lasing, nonlinear e ects, understanding cavity optomechanics etc. This thesis covers the design and modeling of microring resonators for biosensing applications. The two applications considered are : homogeneous biosensing and wrist pulse pressure monitoring. Also, the designs have been used to fabricate ring resonator device using three different techniques. The results obtained through characterization of these devices are presented. Following are the observations made in lieu of this: 1) Design modeling and analysis - The analysis of ring resonator requires the study of both the straight and bent waveguide sections. Both rib and strip waveguide geometries have been considered for constructing the device as a building block by computing their respective eigen modes for both quasi-TE and quasi-TM polarizations. The non-uniform evanescent coupling between the straight and curved waveguide has been estimated using coupled mode theory. This method provided in estimating the quality-factor and free spec- tral range (FSR) of the ring-resonator. A case for optimizing the waveguide gap in the directional coupler section of a ring resonator has been presented for homogeneous biosensing application. On similar lines, a model of applying ring resonator for arterial pulse-pressure measurement has been analyzed. The results have been obtained by employing FD-BPM and FDTD including semi- vectorial eigen mode solutions to evaluate the spectral characteristics of ring resonator. The modeling and analytical results are supported by commercial software tools (RSoft). 2) Fabrication and Characterization - For the fabrication, we employ the design of ring resonator of radius 20 m on SOI substrate with two different waveguide gaps of 350 and 700 nm. Three different process sows have been used for fabricating the same device. The rst technique involved using negative e-beam resist HSQ which after exposure becomes SiO2, acts as a mask for Reactive-Ion Etching (RIE); helping in eliminating an additional step. The second technique involved the use of positive e-beam resist, PMMA for device patterning followed by metal deposition with lift-o . The third tech- nique employed was Focussed Ion-beam (FIB) which is resist-less patterning by bombarding Ga+ ions directly onto the top surface of the wafer with the help of a GDS le. The characterization process involved estimation of loss and observing the be- havior of optical elds in the device around the wavelength of 1550 nm using near-field scanning optical microscopy (NSOM) measurement. The estimation of roughness-induced losses has been made by performing Atomic Force Microscopy (AFM) measurements. In summary, the thesis presents novel design and analysis of SOI based microring resonators for homogeneous biosensing and wrist pulse pressure sensing applications. Also, the fabrication and characterization of 20 m radius ring- resonator with 500 500 nm rib cross-section is presented. Hence, this study brings forth several practical issues concerning application of ring resonators to biosensing applications.
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Book chapters on the topic "SOI ring resonator"

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Rakshit, Jayanta Kumar, and Gaurav Kumar Bharti. "All-Optical Switching and Logic-Gates Design Using Mode (Polarization)-Conversion in Micro-Ring Resonator." In Contemporary Developments in High-Frequency Photonic Devices, 277–302. IGI Global, 2019. http://dx.doi.org/10.4018/978-1-5225-8531-2.ch011.

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The realization of all-optical polarization switch and all-optical logic gates based on polarization-conversion on single silicon micro-ring resonator (MRR) is demonstrated. By adjusting the mode state of the input source as well as the pump light, the all-optical polarization switch, and hence, all-optical NOT, OR/NOR. AND-NAND logic gates are realized. The design is ultra-compact, ultrafast, and less optical power is required for all-optical polarization-conversion-based switch and logic gates, respectively. The MRR also shows outstanding performance as its Q (quality) factor is very high. The design is robust, simple, stable, easy-to-fabricate, and silicon-on-insulator (SOI) compatible. The structure is compatible for interconnects and capable for integrating in electronics as well as in plasmonics circuits.
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Conference papers on the topic "SOI ring resonator"

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Bienstman, P., S. Werquin, C. Lerma Arce, D. Witters, R. Puers, J. Lammertyn, T. Claes, E. Hallynck, J. W. Hoste, and D. Martens. "Ring resonator based SOI biosensors." In SPIE OPTO, edited by Joel Kubby and Graham T. Reed. SPIE, 2013. http://dx.doi.org/10.1117/12.2001242.

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Xu, D. X., A. Densmore, R. Ma, J. H. Schmid, M. Vachon, J. Lapointe, S. Janz, E. Post, A. Delage, and P. Cheben. "WDM addressed SOI ring resonator biosensor array." In 2009 6th IEEE International Conference on Group IV Photonics. GFP 2009. IEEE, 2009. http://dx.doi.org/10.1109/group4.2009.5338299.

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Dash, Aneesh, Viphretuo Mere, G. P. R. Yasasvi, Siddharth R. Nambiar, Akshay Naik, and Shankar Kumar Selvaraja. "CNT micro-heater on SOI micro-ring resonator." In 2D Photonic Materials and Devices II, edited by Arka Majumdar, Carlos M. Torres, and Hui Deng. SPIE, 2019. http://dx.doi.org/10.1117/12.2509688.

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Singh, Ritu Raj, Soumya Kumari, Abhinav Gautam, and Vishnu Priye. "Radius Optimization of SOI based Rectangular Waveguide Ring Resonator Filter." In Frontiers in Optics. Washington, D.C.: OSA, 2018. http://dx.doi.org/10.1364/fio.2018.jw3a.107.

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Lee, Tae-Kyeong, Hong-Seung Kim, Geum-Yoon Oh, and Young-Wan Choi. "Analysis of triangular ring resonator using microcavity SOI slot waveguides." In SPIE OPTO, edited by Ali Adibi, Shawn-Yu Lin, and Axel Scherer. SPIE, 2011. http://dx.doi.org/10.1117/12.874584.

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Raghunath, Usha, S. Malathi, Yedhu Krishna, T. Srinivas, and Govind Kadambi. "Design of 16 channel multiplexer using SOI ring resonator array." In 2010 Photonics Global Conference. IEEE, 2010. http://dx.doi.org/10.1109/pgc.2010.5706114.

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Chen, A. T. C., and M. Rakib Uddin. "SOI Rib Waveguide Physical Dimension Dependent Micro Ring Resonator Characterization." In 2021 23rd International Conference on Advanced Communication Technology (ICACT). IEEE, 2021. http://dx.doi.org/10.23919/icact51234.2021.9370751.

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Kasper, Laura, Christoph Kratz, Jürgen Bruns, Rudolf Volkmer, Karsten Hinrichs, and Klaus Petermann. "Inline characterization of microfluidic APTES functionalization for SOI ring resonator biosensors." In Optical Sensors. Washington, D.C.: OSA, 2019. http://dx.doi.org/10.1364/sensors.2019.stu3c.3.

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Sarmiento, Samael, Jose A. Lazaro, Alicia Lopez, M. Angeles Losada, Jorge Pinazo, and Adolfo Lerin. "Study of Graphene-SOI-Based Micro-Ring Resonator for Beamforming Automotive Radars." In 2020 22nd International Conference on Transparent Optical Networks (ICTON). IEEE, 2020. http://dx.doi.org/10.1109/icton51198.2020.9203261.

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Pandey, Awanish, Shiva Vikram Bhagavatula, V. R. Supradeepa, and Shankar Kumar Selvaraja. "Optical single sideband generation using self-coupled micro ring resonator in SOI." In 2017 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC). IEEE, 2017. http://dx.doi.org/10.1109/cleoe-eqec.2017.8086969.

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Reports on the topic "SOI ring resonator"

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Ptasinski, Joanna. Electrode Placement for Active Tuning of Silicon-on-Insulator (SOI) Ring Resonator Structure Clad in Nematic Liquid Crystals. Fort Belvoir, VA: Defense Technical Information Center, August 2014. http://dx.doi.org/10.21236/ada611752.

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